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ISSN: 1023-5086

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ISSN: 1023-5086

Scientific and technical

Opticheskii Zhurnal

A full-text English translation of the journal is published by Optica Publishing Group under the title “Journal of Optical Technology”

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УДК: 535.318

System solutions for prospective hyperspectral equipment

Zavarzin, V.I., Mitrofanova, Y.S.

Full text «Opticheskii Zhurnal»

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Publication in Journal of Optical Technology

For Russian citation (Opticheskii Zhurnal):

Заварзин В.И., Митрофанова Ю.С. Схемные решения для перспективной гиперспектральной аппаратуры // Оптический журнал. 2017. Т. 84. № 4. С. 12–16.

 

Zavarzin V.I., Mitrofanova Yu.S. System solutions for prospective hyperspectral equipment [in Russian] // Opticheskii Zhurnal. 2017. V. 84. № 4. P. 12–16.

For citation (Journal of Optical Technology):

V. I. Zavarzin and Yu. S. Mitrofanova, "System solutions for prospective hyperspectral equipment," Journal of Optical Technology. 84(4), 226-230 (2017). https://doi.org/10.1364/JOT.84.000226

Abstract:

System solutions are presented for prospective hyperspectral equipment constructed according to the Offner autocollimation scheme. As an imaging objective, mirror and catadioptric systems based on a modified design of the mirror Cooke triplet with an eccentrically positioned image field are considered.

Keywords:

remote Earth probing, hyperspectral device, catadioptric objective, mirror objective, Cooke triplet, Offner scheme, spectrometer

OCIS codes: 050.1950, 080.2740, 080.4035, 080.4228, 280.0280

References:

1. S. A. Arkhipov, B. N. Senik, and V. I. Zavarzin, “Developing and fabricating optical systems for a prospective remote-Earth-probe spacecraft,” J. Opt. Technol. 80(1), 25 (2013) [Opt. Zh. 80(1) 34 (2013)].
2. V. I. Zavarzin, S. O. Kravchenko, and S. A. Morozov, “A technique for calculating objectives with Mangin mirrors based on a three-mirror system with an eccentrically positioned image field,” Inzh. Zh.: Nauka Innovatsiya 1(13), 13 (2013).
3. I. V. Peisakhson, Optics of Spectral Devices (Mashinostroenie, Leningrad, 1975).
4. S. A. Arkhipov, V. I. Zavarzin, V. A. Malykhin, and S. A. Morozov, “Alignment and certification of a long-focus three-mirror objective with an eccentrically positioned field of image,” Vestn. MGTU (4), 24 (2009).
5. V. I. Zavarzin, A. V. Li, and S. A. Morozov, “A technique for assembling and aligning mirror-lens objectives with an eccentrically positioned field of image,” Inzh. Zh.: Nauka Innovatsiya (7) (2013), http://engjournal.ru/catalog/pribor/optica/822.html.
6. V. I. Zavarzin, S. O. Kravchenko, and S. A. Morozov, “A technique for calculating compact off-axis three-mirror objectives with Mangin mirrors,” Inzh. Zh.: Nauka Innovatsiya (7) (2013), http://engjournal.ru/catalog/pribor/optica/819.html.
7. S. A. Arkhipov, V. I. Zavarzin, V. V. Zavarzina, S. O. Kravchenko, S. A. Morozov, and B. N. Senik, “Mirror-lens objective (various implementations),” Russian Patent 2461030RF (2012).
8. S. A. Arkhipov, V. I. Zavarzin, S. A. Morozov, A. V. Li, V. M. Linko, and S. O. Kravchenko, “Mirror-lens objective,” Russian Patent 2547170RF (2015).